JP2010097390A - Data rewriting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data rewriting system improving the efficiency of maintenance work for an electronic device by using an existing interface. <P>SOLUTION: The data rewriting system has: an electronic device 10 provided with a storage unit for storing data; and a data rewriting device 20 for rewriting data in the storage unit provided in the electronic device 10. The data rewriting device 20 includes: a rewriting side light emitter 27 for transmitting data to rewrite to the electronic device 10 by optical communication; a rewriting side light receiver 26 for receiving data transmitted by the electronic device 10 by visible light communication; and a display 28 for displaying the data received by the rewriting side light receiver 26. The electronic device 10 includes: a device side light receiver 16 for receiving and storing in the storage unit the data transmitted by the rewriting side light emitter 27; and a device side light emitter 17 for transmitting data to the data rewriting device 20 by visible light communication. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a system for rewriting data in a storage device included in an electronic device.

  Conventionally, regarding an air conditioner control device, “to obtain an air conditioner control device capable of rewriting an air conditioner control program itself in a nonvolatile RAM using a wireless remote control signal. As a technology aiming at "rewriting signal receiving means for receiving a rewriting signal such as a wireless signal, main control program rewriting means for rewriting the main control program based on the rewriting signal transmitted from the rewriting signal receiving means, and rewriting" It is provided with normal air conditioning control means that is stored in a possible non-volatile memory, rewritten by a rewrite signal sent to the main control program rewriting means, and executes air conditioning control processing. ] Has been proposed (Patent Document 1).

  In addition, regarding the maintenance system of the air conditioner, “It is possible to accurately rewrite the air conditioner model information without making a mistake with a general-purpose portable information terminal without using a special tool, and to realize a common control board To do. As a technology for the purpose, “a maintenance system for an air conditioner including an air conditioner 10, a maintenance server 30 that provides unique model information, and a portable information terminal 20, The indoor unit 11 includes a receiving unit 11b that can communicate with the portable information terminal 20, a rewritable memory 11c that stores predetermined information received by the receiving unit, a memory write / read operation, and an air conditioner operation. The portable information terminal 20 accesses the server 30 to download predetermined model information, transmits the model information to the receiving unit 11b of the indoor unit 11, and the control unit 11a receives the receiving unit. The contents of the memory 10c are rewritten according to the model information received at 11b. Is proposed (Patent Document 2).

JP-A-11-201533 (summary) JP 2006-132870 A (Summary)

When a service provider performs work at a site where the electronic device is installed, such as installation work or failure handling of the electronic device, the work quality may be hindered depending on the specifications of the electronic device.
For example, in the case of an electronic device having a small number of display units, the expression of an error signal is limited and the display method is complicated. In addition, when the model name of the electronic device is printed, the work quality may deteriorate due to incorrect ordering of replacement service boards due to misreading of the model name or writing of incorrect data. .

Also, when dealing with S / W defects of electronic equipment, remove the board, connect the power line and communication line to the board, and connect the line to a dedicated data rewrite device that can read and write product data Then, it is necessary to rewrite the data.
Therefore, it is necessary to install the latest device data in a dedicated data rewriting device, connect a dedicated device such as a battery for supplying power, and an AC adapter. Furthermore, it is necessary to manually connect each device.
Therefore, work quality may be deteriorated due to complicated work procedures.

  SUMMARY An advantage of some aspects of the invention is that it provides a data rewriting system capable of improving the maintenance work efficiency of an electronic device by using an existing interface.

  A data rewriting system according to the present invention includes an electronic device including a storage device that stores data, and a data rewriting device that rewrites data in the storage device included in the electronic device, and the data rewriting device rewrites the data. Rewrite-side light emitting unit that transmits data to the electronic device through optical communication, Rewrite-side light receiving unit that receives data transmitted by the electronic device through visible light communication, and a display that displays data received by the rewrite-side light receiving unit A device side light receiving unit that receives data transmitted from the rewrite side light emitting unit and stores the data in the storage device, and a device side that transmits data to the data rewrite device through visible light communication. And a light emitting unit.

According to the data rewriting system of the present invention, since the data rewriting device can display data received from the electronic device, the operator visually confirms the data such as the contents of the error signal and the model name in an easy-to-view display format. be able to.
As a result, it is possible to avoid deterioration in work quality due to a lack of display means such as complicated error display and unknown model name.

In addition, according to the data rewriting system of the present invention, the electronic device and the data rewriting device transmit and receive data by optical communication, so there is no need to manually perform complicated wiring.
Thereby, it is possible to avoid a decrease in work quality due to a complicated work procedure.

Embodiment 1 FIG.
FIG. 1 is a functional block diagram of a data rewriting system according to Embodiment 1 of the present invention.
The data rewriting system according to the first embodiment includes an electronic device 10 and a data rewriting device 20.
The electronic device 10 is a device that operates electronically using data stored in a storage device, such as a home appliance (for example, an air conditioner).
The data rewriting device 20 has a role of rewriting data in a storage device described later included in the electronic device 10.

  The electronic device 10 includes an MPU (Micro Processor Unit) 12, a peripheral component 15, a device-side light receiving unit 16, and a device-side light emitting unit 17.

  The MPU 12 controls the overall operation of the electronic device 10. In addition, a RAM (Random Access Memory) 13 and a ROM (Read Only Memory) 14 are provided, and control operations are executed using data stored in these.

  The peripheral component 15 is an electrical component mounted on a circuit board or the like included in the electronic device 10.

The device-side light receiving unit 16 receives the data transmitted by the data rewriting device 20 through optical communication such as infrared communication or visible light communication, and outputs the contents to the MPU 12.
As the device-side light receiving unit 16, for example, a light receiving unit that receives an infrared signal transmitted by a remote controller for operating the electronic device 10 can be used. Alternatively, a new light receiving unit for data rewriting can be provided. Good.

  The device-side light emitting unit 17 transmits data to the data rewriting device 20 by optical communication such as infrared communication or visible light communication. Below, the case where visible light communication is mainly used is demonstrated.

  The data rewriting device 20 includes an MPU 22, peripheral components 25, a rewriting side light receiving unit 26, a rewriting side light emitting unit 27, a display input unit 28, and a charging unit 29.

The MPU 22 controls the overall operation of the data rewriting device 20. In addition, a RAM 23 and a ROM 24 are provided, and control operations are executed using data stored in these.
The peripheral component 25 is an electrical component mounted on a circuit board or the like provided in the data rewriting device 20.

The rewrite-side light receiving unit 26 receives data transmitted by the electronic device 10 through optical communication such as infrared communication or visible light communication, and outputs the contents to the MPU 22.
The rewrite-side light emitting unit 27 transmits data to the electronic device 10 by optical communication such as infrared communication or visible light communication. A communication method corresponding to the communication specification of the device-side light receiving unit 16 is used.

The display input unit 28 displays information based on an instruction from the MPU 22.
A person who performs data rewriting work of the electronic device 10 using the data rewriting device 20 inputs an operation instruction to the data rewriting device 20 from the display input unit 28. The operation instruction content is output to the MPU 22. The MPU 22 performs a control operation according to the operation instruction.

  The charging unit 29 is a functional unit that supplies power to the data rewriting device 20.

  When infrared communication or visible light communication is performed, information can be expressed by, for example, an ON / OFF pattern of a light pulse.

The functional block of the data rewriting system according to the first embodiment has been described above.
Next, a specific configuration example of the data rewriting device 20 will be described.

  FIG. 2 is a configuration diagram when the data rewriting device 20 is configured using a computer.

The computer 30 has a function as a terminal, such as a notebook PC, which is carried by an operator to the work site and performs data rewriting work.
The computer 30 plays a role corresponding to the MPU 22, the peripheral component 25, the display input unit 28, and the charging unit 29 in FIG. 1.

  A USB (Universal Serial Bus) connector 31 is a signal connector for connecting the signal converter 32 and the computer 30 by USB connection.

The signal converter 32 converts signals transmitted and received by the infrared transmitter 33 and the visible light receiver 34 into USB signals, and transmits and receives them to and from the USB connector 31.
Thereby, the infrared transmitter 33 and the visible light receiver 34 can transmit and receive signals that can be interpreted by the computer 30 to and from the computer 30.

The infrared transmitter 33 transmits data to the electronic device 10 by infrared communication. The infrared transmitter 33 plays a role corresponding to the rewrite-side light emitter 27 in FIG.
The visible light receiving unit 34 receives data transmitted by the electronic device 10 through visible light communication. The visible light receiving unit 34 plays a role corresponding to the rewrite-side light receiving unit 26 in FIG.

  The signal converter 32, the infrared transmitter 33, and the visible light receiver 34 can be mounted on an external board connected to the computer 30 via, for example, the USB connector 31.

  The configuration example using the computer 30 has been described above as a specific configuration example of the data rewriting device 20. Next, the operation of the configuration example using the computer 30 shown in FIG. 2 will be described.

It is assumed that the electronic device 10 is a home air conditioner.
When a failure occurs in the air conditioner, the user of the air conditioner makes a service call to the service provider. A worker of the service provider goes to the user's house to analyze the cause of the failure of the air conditioner and analyze the cause.

In general, home electronic devices such as air conditioners do not include means for displaying specialized content such as failure content. Therefore, a simple error display is generally performed via a display unit that is normally provided in the air conditioner.
Therefore, it is difficult for the worker to obtain sufficient information about the details of the failure, and the failure analysis takes time.

Therefore, in the data rewriting system according to the first embodiment, error information and the like transmitted by the electronic device 10 are displayed on the display input unit 28 so that the operator can obtain an error display that is easier to see. .
In the following steps (1) to (12), the operation procedure of the configuration example shown in FIG. 2 will be described.

(1) The operator operates the computer 30 to instruct to shift the electronic device 10 to the maintenance mode.
(2) The computer 30 instructs the infrared transmission unit 33 to output the above infrared signal via the USB connector 31 to the signal converter 32.
(3) The infrared transmitter 33 transmits an infrared signal to the electronic apparatus 10 indicating that the maintenance mode should be entered.

(4) The device-side light receiver 16 of the electronic device 10 receives the infrared signal transmitted by the infrared transmitter 33 and outputs the content of the signal to the MPU 12.
(5) The MPU 12 shifts the operation mode of the electronic device 10 to the maintenance mode according to the signal content.

(6) The MPU 12 instructs the device-side light emitting unit 17 to transmit data indicating the failure content of the electronic device 10.
(7) The device-side light emitting unit 17 transmits data indicating the failure content of the electronic device 10 by visible light communication based on the instruction. In addition, information that enables individual identification of the electronic device 10 such as a model name, a model name, and a manufacturing number of the electronic device 10 may be transmitted together.

(8) The visible light receiving unit 34 receives the data transmitted by the device-side light emitting unit 17 and outputs the data to the computer 30 via the signal converter 32 to the USB connector 31.
(9) The computer 30 displays on the screen information representing the failure content of the electronic device 10 based on the data.
(10) The operator determines the content of the failure based on the information displayed on the screen by the computer 30 and takes measures such as repair. Further, if necessary, a modified version of data stored in the ROM 14 of the electronic device 10 is transmitted to the electronic device 10 via the infrared transmission unit 33.

(11) When the modified version of the data stored in the ROM 14 is transmitted from the infrared transmission unit 33, the device-side light receiving unit 16 of the electronic device 10 outputs the data to the MPU 12.
(12) The MPU 12 replaces the corrected version data with the existing data in the ROM 14. Alternatively, the device-side light receiving unit 16 itself may replace the existing data in the ROM 14. In the latter case, the “device-side light receiving unit” in the claims corresponds to the device-side light receiving unit 16 and the MPU 12.
(13) The maintenance of data in the ROM 14 is completed by the above procedure.

  The operation procedure of the configuration example shown in FIG. 2 has been described above.

In FIG. 2, the electronic device 10 receives data by infrared communication and transmits data by visible light communication. This is based on the assumption that an infrared light receiving unit for remote control that is generally provided in the electronic device 10 is used as the device side light receiving unit 16 and a screen display unit such as a liquid crystal display unit is used as the device side light emitting unit 17. It is.
The communication method is not limited to this, and other communication methods can be used as long as the communication interface provided in the electronic device 10 can be used to communicate with the data rewriting device 20.
However, it should be noted that the data rewriting device 20 needs to use a communication procedure compatible with these communication interfaces provided in the electronic device 10.

As described above, according to the first embodiment, between the electronic device 10 and the data rewriting device 20 using the infrared light receiving unit already provided in the electronic device 10 or the visible light display interface such as the power LED. Communication can be performed.
Thereby, the electronic device 10 is advantageous from the viewpoint of cost because it is not necessary to provide an additional part such as a dedicated interface for performing maintenance work such as data rewriting.

Further, according to the first embodiment, maintenance data such as the failure content of the electronic device 10 can be displayed on the screen of the computer 30.
Thereby, even when the information display capability of the electronic device 10 itself is limited, the worker can perform a detailed failure content analysis. In addition, the operator can quickly perform the failure analysis work and leave the history in the computer 30.
Furthermore, since it is possible to immediately place an order for replacement parts or the like on the computer 30 while browsing the failure information displayed on the screen of the computer 30, the possibility of erroneous ordering can be reduced. it can. Similarly, when the electronic device 10 is installed, the operation check of the electronic device 10 can be easily performed.

In the first embodiment, the data rewriting device 20 can acquire internal information of the electronic device 10 using a communication interface such as infrared communication that the electronic device 10 has in advance. The internal information can include individual identification information such as a model name of the electronic device 10.
This eliminates erroneous maintenance due to a mistake in reading the model name and improves work quality.
In this regard, the model name of the electronic device 10 is often described on a sticker and attached to the main body housing. However, in the first embodiment, it is not necessary to read this by visual confirmation or the like. Contribute to improvement.

On the other hand, a technique for eliminating a reading error using a barcode such as a QR code is generally disclosed. However, in addition to limitations on the design of the electronic device 10, a barcode printing fee is also required.
In addition, it is possible to hide the barcode inside the movable part of the electronic device 10, but generally such a movable part is not provided with sufficient strength because it is not touched when the electronic device 10 is normally used. There is. Therefore, there is a possibility that the worker touches the movable part to check the barcode during the maintenance work, and induces damage or the like.
By using a technique capable of transmitting and receiving data by optical communication as in the first embodiment for maintenance work, the above inconvenience can be avoided.

Further, in the first embodiment, it is sufficient to protect the visible light from leaking by hiding only the portion that is exposed to the visible light with respect to the wiretapping of the visible light communication between the electronic device 10 and the data rewriting device 20. Measures are easy and preferable from the viewpoint of security.
In this regard, in the case of wireless communication using radio waves, although security measures such as communication encryption are sufficiently taken, the encryption standard is constantly updated, and the communication specification of the data rewriting device 20 is updated each time. Must be updated to the latest, which is expensive.
Furthermore, even if communication software or the like is automatically updated via a network, complicated work such as initial setting is still necessary.
The first embodiment has an advantage that security can be easily ensured as described above without the need for additional development or complicated setting work for each standard update.

Further, according to the first embodiment, it is possible to visualize the transmission range of data by visible light communication.
Therefore, unlike a communication method that cannot be visualized such as infrared communication, it is not necessary to change the position of the data rewriting device 20 in various ways to check whether or not the data can be received. Thereby, the labor of maintenance work can be reduced.

Moreover, in this Embodiment 1, the data check after the data rewriting apparatus 20 transmits data to the electronic device 10 can be performed by visible light communication via display parts, such as power supply LED with which the electronic device 10 is provided. .
Therefore, when the electronic device 10 is manufactured, the data check can be performed before the final finished product check, so that the manufacturing efficiency is improved.
In addition, since data check can be performed by visible light communication, data check can be performed at a higher speed than infrared communication such as a general general-purpose remote control signal. Furthermore, since communication is performed using visible light communication, the number of components such as a connector for signal connection can be reduced.

Further, according to the first embodiment, when the electronic device 10 is a device whose settings vary greatly depending on the individual such as an air conditioner or a TV, the data rewriting device 20 is used to store data customized for each individual in the ROM 14. Can be stored.
Thereby, an air-conditioning pattern, an operation menu, etc. can be customized according to an individual preference, room shape, etc. It is also useful when the installation environment of the electronic device 10 changes due to home renovation or renovation.
In addition, when the air conditioner does not function due to insufficient capacity, customization such as changing the capacity value by increasing power consumption is also possible. Thereby, lack of air-conditioning capability can be eliminated without having to buy a new air conditioner.

In the first embodiment, when the electronic device 10 is composed of a plurality of devices and communicates with each other, the rewriting data is transmitted from the data rewriting device 20 to any of the devices. This can also be transferred when communicating with each other.
For example, when the electronic device 10 is an air conditioner, there are three types of devices: “indoor unit”, “outdoor unit”, and “remote control”. The data rewrite device 20 transmits the rewrite data to any of these devices.
Later, when each device communicates, for example, when an operation command is transmitted from the indoor unit to the outdoor unit, or when an operation instruction is transmitted from the remote control to the indoor unit, the rewrite data can be transmitted to the other device.
In other words, as long as the rewrite data is transmitted to one of the devices, it can be superimposed on the communication performed in the subsequent normal operation, and the rewrite data can be automatically transferred to each device. Can be reduced.

Embodiment 2. FIG.
In Embodiment 1, the example which comprised the data rewriting apparatus 20 using the computer 30 and the external board | substrate was demonstrated. On the other hand, in the case where a device including a high-speed microcomputer or other arithmetic device and a display device can be used, the data rewriting device 20 can be configured without using the computer 30.

For example, a visible light receiving unit 34 is provided in a mobile phone, a PDA (Personal Digital Assistant), or an imaging unit such as a camera mounted in advance is used as the visible light receiving unit 34.
In addition, since mobile phones and PDAs often have an IrDA terminal as an infrared communication function as a standard, it can be used as the infrared transmitter 33.

In addition, when the electronic device 10 includes a light receiving element such as a photodiode or a camera, it can be used as the device-side light receiving unit 16 so that the mobile phone or the PDA can be used only with visible light communication without using infrared communication. Two-way communication is possible.
For example, a screen display unit of a mobile phone or PDA displays a predetermined light emission pattern, image pattern, or the like on the screen according to a predetermined rule.
The light receiving element of the electronic device 10 receives the light emission pattern and the image pattern and outputs them to the MPU 12. The MPU 12 analyzes this and extracts transmission data.

As described above, a device such as a mobile phone or a PDA that includes a screen display unit and includes an infrared communication unit or a visible light communication unit as a communication interface can be configured as the data rewriting device 20.
However, for infrared communication, it is necessary to arrange communication procedures with the electronic device 10. In addition, when a camera is used as the visible light receiving unit 34, it is necessary to have a function of analyzing image data captured by the camera and extracting error information and the like.

In addition, when data rewriting work is performed using the computer 30, a mobile phone, a PDA, etc., the work can be performed using an interface that is relatively familiar to the worker, so that work efficiency is improved and work is improved. Mistakes can be reduced.
In this regard, when the maintenance work is to be performed using only the interface provided in advance in the electronic device 10, the work is performed using only limited operation means. Therefore, for example, when the number of buttons included in the electronic device 10 is small, the operation becomes complicated.
In the second embodiment, it is not necessary to take such a complicated procedure, which is convenient for the operator.

Embodiment 3 FIG.
In the first and second embodiments, the example in which the computer 30, the mobile phone, and the PDA are configured as the data rewriting device 20 has been described.
Since these devices can be connected to the network, a part of the failure diagnosis function can be delegated to an external device. In the third embodiment of the present invention, an example will be described in which the data rewriting device 20 and an external device operate in a linked manner via a network.

In general, in order to perform failure analysis based on error information transmitted from the electronic device 10, a function such as automatic failure analysis software is required on the data rewriting device 20 side.
However, since the software that can be installed in the data rewriting device 20 is limited, it is difficult to install the automatic failure analysis software individually for all types of electronic devices 10.

Therefore, the failure analysis software is installed in a server or the like on the network, and the error information is transmitted from the data rewriting device 20 to the server to delegate the failure analysis.
Thereby, even if the model database of the electronic device 10 and the failure analysis software are not installed in the data rewriting device 20, the data can be transmitted to the server via the network and the failure analysis can be performed.
Therefore, even when there are a plurality of types of electronic devices 10 to be maintained, the server can cover all these types of devices. Therefore, it is not necessary to develop the data rewriting device 20 for each model of the electronic devices 10, and the server Only the development of the software to be installed is sufficient.

Not only failure analysis, but also when data stored in the ROM 14 is updated to the latest version, it is possible to cooperate with the server via the network.
For example, the device-side light emitting unit 17 of the electronic device 10 transmits its product model number by visible light communication. The worker brings a camera unit such as a mobile phone close to the device-side light emitting unit 17 and images the visible light.
The mobile phone transmits the image data to the server. The server analyzes the imaging data, acquires the model number of the electronic device 10, and transmits the latest version update data for the model number to the mobile phone.
The mobile phone receives the latest version of the data stored in the ROM 14 of the electronic device 10 from the server. The worker transmits the data to the electronic device 10 by infrared communication or the like, and completes the update maintenance.

As described above, in the third embodiment, functions such as the failure analysis function can be delegated to the server by configuring the data rewriting device 20 using a device that can communicate with the server on the network. .
This eliminates the need to develop the data rewriting device 20 for each model of the electronic device 10, thereby greatly reducing the development period and cost.

In the third embodiment, for example, a dedicated S / W for maintenance work is downloaded and used from a predetermined server using a mobile phone, and setting work is efficiently performed using a GUI. Can be sent to.
Furthermore, the result of the setting work can be received and confirmed by visible light communication via a display screen, a power LED, and the like included in the electronic device 10.

  In the third embodiment, information such as the usage time, usage setting, and electricity bill of the electronic device 10 can be obtained from the electronic device 10 by visible light communication. Furthermore, it is also possible to provide a service in which the information is transmitted to a server via a mobile phone, automatically graphed, and usage advice is given to the user.

Embodiment 4 FIG.
In general, the electronic device 10 may not include a light receiving unit or a light emitting unit on the surface of the main body, or the circuit board of the electronic device 10 may enter a deep position inside the device.
In such a case, a second light receiving part and a second light emitting part for maintenance are provided on the surface of the main body of the electronic device 10 separately from the light receiving part and the light emitting part on the circuit board, and the second light receiving part and the second light emitting part are provided. Although it is conceivable to separately arrange a circuit board for mounting, the cost becomes high.

In this case, a light emitting component such as an LED (Light Emitting Diode) is mounted on the circuit board of the electronic device 10, and a second light receiving portion or a second light emitting portion for maintenance is provided on the surface of the electronic device 10 body, and an optical transfer cable is used. These are connected to transmit an optical signal. Alternatively, the transparency of the electronic device 10 casing is lowered and the casing is used as a transmission path.
According to this method, it is not necessary to newly provide a circuit board, and a light emitting part and a light receiving part can be provided on the surface of the electronic device 10 with a minimum cost increase.
In the case of an LED having a high luminance, a part that is semi-transmissive or transmissive to the electronic device 10 casing can be created, and light-emitting communication can be performed through that part.

Embodiment 5 FIG.
Household electronic devices such as an air conditioner may acquire information in a house using a visible light sensor such as a camera or a photodiode and use the information for operation control. This visible light sensor can be used as the device-side light receiving unit 16.

For example, the device-side light receiving unit 16 configured with a camera or the like can receive data from an external device such as the data rewriting device 20 through visible light communication, and perform operation control based on the data.
For example, the camera of the electronic device 10 captures an image of a movie or the like flowing on the TV screen, analyzes this to grasp that the movie is flowing on the TV screen, and controls the operation according to the atmosphere of the movie. It is possible to use such as.
Specifically, in the case where the electronic device 10 is an air conditioner, adaptive control such as raising the room temperature to a comfortable level in accordance with a warm atmosphere movie can be considered.

Embodiment 6 FIG.
When the rewrite-side light receiving unit 26 is formed of a visible light receiving device, there may be a problem depending on the light receiving function.
For example, when a camera of a mobile phone is used as a visible light receiving element, the frame rate (F / s) may automatically change depending on the imaging state due to an autofocus function provided in the camera. Also, the minimum frame rate is not unified.

  Changing the frame rate has no problem in functioning as an imaging device, but when using a camera as a communication means using visible light, the communication bit rate does not match between the transmission side and the reception side. Communication may be hindered.

  In addition, home appliances are updated every year with new products, and communication specifications may vary from device to device.

  In the sixth embodiment of the present invention, a technique for avoiding the problems caused by the communication rate mismatch as described above will be described. Hereinafter, assuming that the data rewriting device 20 is configured using a mobile phone, the communication procedure will be described in the following steps (1) to (5).

(1) An agreement regarding a start bit string transmitted from the electronic device 10 at the start of communication between the mobile phone and the electronic device 10 is determined in advance. Here, it is assumed that a 4-bit bit string “1011” is used.
(2) The mobile phone receives the above-described start bit string transmitted by the device-side light emitting unit 17 of the electronic device 10.

(3) If the bit string of the optical pulse received by the light receiving element is “1011” in the mobile phone, the communication rate with the electronic device 10 matches the communication rate assumed by itself. to decide.
(4) On the other hand, if the bit string of the optical pulse is “11001111”, it is determined that the frame rate is ½.
(5) After determining the frame rate, the mobile phone raises and lowers the frame rate as necessary to match the communication rate with the electronic device 10.

As described above, according to the sixth embodiment, the frame rate of visible light communication between the electronic device 10 and the data rewriting device 20 can be automatically adjusted.
For example, when both the electronic device 10 and the data rewriting device 20 can perform high-speed communication, the speed of visible light communication is automatically increased, and when the start bit string cannot be read, the speed is automatically decreased. Is possible.

  Note that the automatic speed adjustment method described in the sixth embodiment can be similarly applied to a light receiving element other than the camera. Furthermore, a similar method can be employed for the device-side light receiving unit 16.

Embodiment 7 FIG.
A light receiving element such as a photodiode may become saturated depending on the distance and illuminance, and may interfere with light reception. Therefore, in the seventh embodiment of the present invention, a method of starting communication after confirming that the light receiving element can reliably receive light will be described.

When the device-side light emitting unit 17 and the rewrite-side light emitting unit 27 are configured by visible light communication means, these light emitting units output a predetermined ON / OFF pulse with visible light before starting communication. When the receiving side has received the predetermined pulse transmitted by the transmitting side, it returns a message to that effect.
The transmission side starts communication by visible light communication after confirming that the reception side has stably received the pulse by a reply from the reception side.

Further, depending on the circuit configuration, when visible light communication is continued for a predetermined time or more, saturation or reaction speed may change. In this case, an interval time period during which signal output is stopped between communication is provided to avoid saturation and communication speed change during communication.
Furthermore, it is also possible to make it convenient for the user by configuring the information indicating that it is the interval time zone to be transmitted to the user via an LED or the like.

  Although it takes time to stabilize in this method, when a signal is taken out from a photodiode via a coupling capacitor and amplified later by an operational amplifier, the operational amplifier input is high impedance, so the resistance from the coupling capacitor to the operational amplifier input, etc. The peripheral parts can be eliminated.

Embodiment 8 FIG.
In visible light communication, it is not always necessary to express communication data only by turning on / off light. For example, communication data can be expressed by varying the duty ratio.

Generally, when the LED is brightly displayed to the human eye, the LED is turned on with a duty of about 5 to 10%. Communication data can be expressed within this duty width.
For example, the correspondence between the duty and the bit value is determined in advance such that the duty 5% represents the bit “0” and the duty 10% represents the bit “1”, and the reception side interprets this.

  According to this method, when visible light communication is performed, it is not always necessary to turn on / off the visible light, and visible light communication is performed even while the LED is efficiently used to emit light. Can do.

In addition to representing information using the duty ratio, it is also possible to represent information by varying the signal intensity and period of the pulse. For example, an expression method is conceivable in which a strong pulse represents a bit “1” and a weak pulse represents a bit “0”. In this case, the light pulse is not necessarily an ON / OFF signal.
Alternatively, the bit value can be similarly expressed by varying the pulse period.

Embodiment 9 FIG.
The specification of visible light communication performed between the electronic device 10 and the data rewriting device 20 may be changed as the modulation method evolves. If the communication specifications of the data rewriting device 20 can be updated while maintaining backward compatibility, this can be accommodated, but the development cost of software and the like becomes high.
In Embodiment 9 of the present invention, a technique that can flexibly cope with changes in communication specifications will be described.

Specifically, the device-side light emitting unit 17 and the rewrite-side light emitting unit 27 superimpose a signal such as a UART (Universal Asynchronous Receiver and Transmitter) of a microcomputer to a visible light communication of the LED as it is.
On the signal receiving side, it is only necessary to interpret the received signal as it is in accordance with a general procedure, so there is no need to implement a separate communication procedure.

FIG. 3 is a signal example when communication is performed using a subcarrier.
In this case as well, the same problem can be dealt with by simply turning on / off so that the subcarrier oscillates with the subcarrier when UART ON (5 V or 3.3 V) and is not output when OFF (0 V).

As described above, according to the ninth embodiment, it is not necessary to develop software for signal interpretation every time the communication specification changes, and it is sufficient to adopt a general-purpose communication method.
Note that the signal to be superimposed on the visible light communication does not necessarily have to be a communication method installed in the microcomputer, such as UART, and the same effect can be exhibited if it is a general-purpose communication method.

Embodiment 10 FIG.
Generally, when a failure occurs in the electronic device 10, the service provider orders a replacement part of the same model from the manufacturer after the user makes a service call. For this reason, it takes time from the occurrence of a failure to the replacement of a part.

Therefore, the circuit board provided in the electronic device 10 is made common among the models, and only data and software stored in the ROM 14 are different for each model.
When a circuit board or a component mounted on the circuit board breaks down, the service provider brings the common board to the user's home and brings only necessary data and software separately, or as described in the third embodiment. In addition, data necessary for the work site is downloaded and installed in the ROM 14 of the common board.

As a result, there is no need to prepare a circuit board for each model of the electronic device 10 or to order a circuit board dedicated to the model after receiving a failure notification, thereby greatly reducing the time and effort for handling the failure. be able to.
In the past, if the model name of the electronic device 10 was incorrect, it was necessary to visit the user's house again by preparing a circuit board of the correct model again. Disappear.

  In addition, according to the above method, software rewriting and the like can be automated based on the model name acquired from the electronic device 10 through communication, so that work errors caused by manual work can be reduced and service quality can be reduced. Can be improved.

Embodiment 11 FIG.
When data is written to the ROM 14 of the electronic device 10 using the data rewriting device 20 in the production line of the electronic device 10 or the installation location of the electronic device 10, communication is interrupted during the operation so that the data writing does not fail. The data rewriting device 20 needs to be fixed.
Therefore, a recess for fitting and stabilizing the data rewriting device 20 is provided in the main body housing of the electronic device 10, and a protrusion corresponding thereto is provided in the data rewriting device 20. Alternatively, a mark or the like indicating the position where the data rewriting device 20 is arranged at the time of work is provided on the main body housing of the electronic device 10 as a guide for the operator.
As a result, the operator can fix the data rewriting device 20 at an appropriate position, and even an operator who is not skilled in data rewriting can work stably.

In addition, if the data rewriting device 20 is configured in a shape that does not leak light like a cylindrical cover, the position of the data rewriting device 20 is stabilized as described above, thereby affecting the influence of external light noise during communication. Communication stability is also increased.
Alternatively, only when working in an environment with strong external light noise, the cover-like auxiliary device may be used to block external light.

The depressions and marks provided on the electronic device 10 main body described above are determined at the time of creating the mold of the electronic device 10 main body.
Therefore, if the shape is not an extreme shape that greatly affects the mold cost itself by providing a recess or mark in the main body of the electronic apparatus 10, the recess or mark can be provided without changing the manufacturing cost.

  Note that when the distance between the electronic device 10 and the data rewriting device 20 is short, communication is possible between the two without performing serial communication modulation or the like to increase the communicable distance. In this case, it is not necessary to use the above-described cover or the like.

A supplementary explanation will be given below for the light-receiving illuminance threshold when a photodiode is used for the device-side light receiving unit 16 and the rewrite-side light receiving unit 26.
When the illuminance of light received by the photodiode is greater than or equal to a threshold value, it is generally determined that the signal is an ON signal, and when the illuminance is less than the threshold value, it is determined to be an OFF signal. This threshold value is determined in consideration of the brightness of the surrounding environment as an offset voltage even when AC coupling is performed using a coupling capacitor or the like.

When the photodiode is used in an environment where the influence of disturbance light is large, the threshold value set in the data rewriting device 20 is changed using a variable resistor or the like.
For example, when the cover as described above is provided, the threshold value is lowered. Alternatively, in order to compensate for the illuminance inside the cover, another LED that illuminates the inside of the cover may be arranged around the photodiode to compensate for the illuminance during communication.
However, when the illuminance inside the cover is supplemented with another LED, another LED having a wavelength different from that of the communication LED is used so as not to affect the light emitted from the communication LED.

Embodiment 12 FIG.
Instead of the MPU 12 included in the electronic device 10 or a part of the control function of the electronic device 10 corresponding to the MPU 12, a programmable chip that can rewrite a logic circuit such as a programmable array or a reconfigurable processor can be used.
In this case, the following can be realized by using the data rewriting device 20.

(1) A part of the control function of the electronic device 10 is configured using a programmable chip. The data rewriting device 20 transmits the logic circuit configuration data of the programmable chip to the electronic device 10.
The MPU 12 of the electronic device 10 acquires the logic circuit configuration data transmitted by the data rewriting device 20 and changes the logic circuit of the programmable chip.

(2) The MPU 12 of the electronic device 10 is configured using a microcomputer with a built-in programmable chip. The data rewriting device 20 transmits the logic circuit configuration data of the programmable chip to the electronic device 10.
The MPU 12 of the electronic device 10 acquires the logic circuit configuration data transmitted by the data rewriting device 20 and changes the logic circuit of the built-in programmable chip.

  As described above, according to the twelfth embodiment, even in an electronic device 10 using a circuit board having a different H / W configuration, the circuit board can be connected between a plurality of types of electronic devices 10 without replacing parts. Can be shared.

Embodiment 13 FIG.
The device-side light receiving unit 16 and the device-side light emitting unit 17 included in the electronic device 10 can be prevented from operating unless a predetermined condition is satisfied. For example, the following conditions (1) to (3) are conceivable.

(1) Do not operate unless a predetermined button or changeover switch provided on the circuit board of the electronic device 10 is operated.
(2) Do not operate unless a predetermined operation is performed with a remote controller or switch provided in the main body of the electronic device 10.
(3) The device-side light receiving unit 16 and the device-side light emitting unit 17 are operated only when the main body of the electronic device 10 is operating under predetermined conditions. The following examples can be considered.

(3.1) The device-side light receiving unit 16 and the device-side light emitting unit 17 are operated only for a predetermined time after the power of the electronic device 10 is turned on. This eliminates the need for the user to operate a switch or the like in order to operate the device-side light receiving unit 16 and the device-side light emitting unit 17, thereby preventing erroneous reading and writing operations.

(3.2) When the electronic device 10 includes a camera, the device-side light receiving unit 16 and the device side only when the user looks at the camera near the electronic device 10 or performs a specific gesture. The light emitting unit 17 is operated.

(3.3) A voice recognition function is provided in the electronic device 10, and the maintenance worker is authenticated by using the voice recognition function. For example, the device side light receiving unit 16 and the device side light emitting unit 17 are operated only when a specific sound emitted from a specific tool or the like possessed by the service provider is recognized and the correct sound can be recognized. .

As described above, according to the thirteenth embodiment, the device-side light receiving unit 16 and the device-side light emitting unit 17 included in the electronic device 10 do not operate unless predetermined conditions are satisfied. There is no need to worry about performing maintenance operations.
Thereby, it is possible to prevent malfunction of the electronic device 10 and wasteful power consumption due to unnecessary maintenance operation.

Embodiment 14 FIG.
When performing data rewriting work in an environment where the electronic device 10 is installed over a wide range, it may be difficult to find where the electronic device 10 to be rewritten is installed.
For example, when the electronic device 10 is an air conditioner, an environment in which an air conditioner is installed in a building and each air conditioner communicates by wireless communication is conceivable.
In this case, even if wireless communication can be established with each air conditioner, in order to rewrite data using infrared communication or visible light communication, the data rewriting device 20 is provided up to the place where the air conditioner is installed. I have to go. Therefore, the data rewriting operation cannot be performed only by establishing the wireless communication.

As a method for dealing with this, a method of identifying the position of the air conditioner by GPS or triangulation using wireless communication between the air conditioner and the data rewriting device 20 can be considered.
Specifically, when the air conditioner is first installed, the data rewriting device 20 is used to write installation position information in the ROM 14 together with individual identification information such as the model name of the air conditioner. The information is transmitted to the central management control device.

  When data is rewritten later, the centralized management control device specifies the position of the air conditioner to be rewritten using the previously transmitted installation position information and individual identification information, and performs data rewriting of the air conditioner.

In other words, since the installation position of the air conditioner is not determined until the actual installation, the installation position information is shipped undefined at the time of manufacture of the air conditioner, and the position information is replaced with the data rewriting device 20 at the time of installation. Write from.
When the data in the ROM 14 is written, the central management control device performs a writing process using the position information.

  In addition, if the installation position information is input only for one air conditioner, wireless communication is performed with other air conditioners, and position detection technology such as TOF (Time of Flight) or triangle method is used. The position of another air conditioner can also be obtained automatically.

As described above, in the fourteenth embodiment, the data rewriting device 20 is used for writing the installation position information at the installation site of the electronic device 10, and the data rewriting process is performed by the centralized management control device.
Thereby, the data rewriting work can be made efficient by the batch data rewriting process using the centralized control device while performing the data rewriting for each individual electronic device 10 using the optical communication provided in the data rewriting device 20. .
In addition, since it is not necessary for the operator to find the installation position of the electronic device 10 at the time of data rewriting, it is possible to expect an improvement in work efficiency from that viewpoint.

Embodiment 15 FIG.
The device-side light emitting unit 17 of the electronic device 10 can be configured by using a light emitting device such as a screen display unit or a power LED that is normally provided in the electronic device 10. However, since the original use of the light emitting device is not suitable for communication, using it as it is may not be suitable for communication.
Therefore, in the fifteenth embodiment of the present invention, an example in which the device-side light emitting unit 17 is operated with specifications suitable for communication will be described, taking as an example the case where the device-side light emitting unit 17 is configured using LEDs.

When the electronic device 10 is a design home appliance, the LED may be used as an operation lamp with reduced brightness. If the user visually checks the driving situation, there is no problem even if the brightness is reduced, but it is not suitable for communication.
Therefore, the MPU 12 increases the luminance by increasing the LED drive current only when performing data communication, and operates in a state where communication is easy.

Specifically, when performing data rewriting, the MPU 12 extends the switching cycle with an AC / DC power supply and supplies more power than usual to the LED.
When the data rewrite is performed, the electronic device 10 is in the maintenance mode and the power source is not used except for the circuit board. Therefore, even if the power supply method is temporarily changed in this way, the electronic device 10 operates. There is no hindrance.

When the LED is driven by the LED drive driver IC, the LED brightness may be changed by the function of the driver IC itself, regardless of the MPU 12.
Further, when the LED is pulse driven, for example, when the LED is driven so that the ON duty is about 5 to 15% and the frequency is about 50 Hz to 70 Hz, the brightness of the LED is increased by increasing the ON time. Can also be raised.

In addition, when peripheral parts other than LED are not provided with the protection means with respect to a power change, it is necessary to avoid that these peripheral parts are damaged by overvoltage etc.
In this case, for example, the power supplied to the LED may be increased while changing the switching cycle of the power supply from a value taking into account regulation or feedback to protect the peripheral components.

Embodiment 16 FIG.
When the electronic device 10 and the data rewriting device 20 can perform radio communication using radio waves, if the data rewriting device 20 uses an advanced modulation method or the like, the cost of the data rewriting device 20 increases.
Therefore, the electronic device 10 is configured so that the communication method can be switched by pressing a predetermined switch or the like. For example, an advanced communication method is used during normal operation, and a simpler communication method is used when communicating with the data rewriting device 20.
Specifically, it is configured to switch to simple communication such as with / without subcarriers as described in FIG.

  Furthermore, when the data rewriting device 20 or the electronic device 10 has a function of switching wirelessly in a reconfigurable manner, even if the communication method is dynamically changed so as to use a wireless method suitable for the communication partner. Good.

  According to the sixteenth embodiment, it is possible to reduce the individual development cost of either the electronic device 10 or the data rewriting device 20 according to the communication method of the communication partner.

Embodiment 17. FIG.
The electronic device 10 may be configured not to perform visible light communication during normal operation, but to perform visible light communication only after receiving an instruction to start visible light communication from the data rewriting device 20 by, for example, infrared communication. it can.
Thereby, during the normal operation of the electronic device 10, the processing load on the MPU 12 can be reduced.

  In addition, in order to make a service provider visually check that the electronic device 10 can perform visible light communication, a display unit such as blinking an LED so that a person can visually recognize it while performing visible light communication. The operation may be changed from the normal operation. Alternatively, when the electronic device 10 has a mechanism for generating sound, the sound may be played simultaneously. When there are a plurality of display portions, the sound is the same.

When the visible light communication is completed, a completion signal may be transmitted from the electronic device 10 to the data rewriting device 20 at the end, and the completion of communication may be transmitted to the person via the interface of the data rewriting device 20. Or you may alert | report completion of communication using the interface of the electronic device 10, such as blink of LED of the electronic device 10, and a buzzer.
Furthermore, the data rewriting device 20 and the electronic device 10 may notify simultaneously.

Embodiment 18 FIG.
In the first to third embodiments, it has been described that the data rewriting device 20 is configured using a terminal equipped with a GUI such as the computer 30, a mobile phone, and a PDA to improve the operability of the maintenance worker.
On the other hand, when the operation using the GUI or the like is not necessary and it is sufficient to simply transmit the rewritten data to the electronic device 10 and store the data transmitted by the electronic device 10, the remote controller provided in advance in the electronic device 10 is sufficient. Can also be used as a data transmission / reception means.

  For example, a USB terminal is provided on the remote controller, and when a USB memory storing rewrite data is inserted, predetermined data in the USB memory is transmitted to the electronic device 10. When data is transmitted from the electronic device 10, the remote controller receives the data and stores it in the USB memory.

  Furthermore, data rewriting may not be performed unless a predetermined procedure such as inputting a predetermined ID and password on the remote control or performing a special operation is performed.

Embodiment 19. FIG.
In the first to eighteenth embodiments, it has been described that communication using infrared rays or visible light is performed between the electronic device 10 and the data rewriting device 20, but the same applies when each device has a voice recognition function. The communication can also be performed by voice.

For example, when the electronic device 10 includes a sound collection device such as a microphone, information is expressed by a method such as turning on / off a predetermined frequency or applying modulation, and data is transferred from the data rewriting device 20 to the electronic device 10. Can be sent.
When data is transmitted from the electronic device 10 to the data rewriting device 20, data is similarly transmitted using a buzzer, a speaker, or the like.

  In the nineteenth embodiment, as in the ninth embodiment, the software development load used for control can be reduced by superimposing a subcarrier of an audio signal on a communication method used by a microcomputer, for example, a signal such as UART. .

  In the nineteenth embodiment, similarly to the eleventh embodiment, the communication quality can be improved by a method of covering the periphery of the data rewriting device 20 or cutting the noise with an active noise filter or the like.

Embodiment 20. FIG.
In Embodiments 1 to 18, it has been described that communication using infrared light or visible light is performed between the electronic device 10 and the data rewriting device 20, but the main body housing of the electronic device 10 is used as a conductor and a dielectric. It can also be used as an electric signal transmission medium.
In this case, a dedicated interface for transmitting and receiving electrical signals transmitted through the main body housing of the electronic device 10 is connected to the MPU 12 and communicates with the data rewriting device 20.

In this method, almost no electromagnetic waves are emitted to the outside, and communication can be performed by electromagnetic waves (evanescent waves) propagating two-dimensionally within the conductive main body casing.
Therefore, it is possible to communicate with the electronic device 10 only by attaching a dedicated interface to the data rewriting device 20 and touching the electronic device 10 main body casing which is a communication medium.

  The place of contact may be any place on the main body casing of the electronic device 10. In a commercial air conditioner or the like, since there is a distance to the main body housing, it can also be performed via a remote control or the like.

  When the electronic device 10 is composed of a plurality of indoor and outdoor devices such as an indoor unit and an outdoor unit of an air conditioner, the operator does not enter the home or building and uses the piping of the outdoor unit. Since it can communicate with the machine, the work is simplified. In this case, even if there are a plurality of indoor units, communication can be performed in the same manner.

Embodiment 21. FIG.
In the first to eighteenth embodiments, it has been described that communication using infrared light or visible light is performed between the electronic device 10 and the data rewriting device 20, but for example, a sensor such as an acceleration sensor that can determine vibration is mounted. In this case, communication can be performed using this as a receiving device.
In this case, a vibrator function is provided in the electronic device 10 or the data rewriting device 20, and communication is performed by expressing information by a vibration pattern.

  At this time, the normal communication method of the microcomputer, for example, serial communication such as UART is multiplied to the vibration pattern, and communication is performed by bringing the electronic device 10 and the data rewriting device 20 into contact with each other.

  In addition to the vibration sensor, the same communication can be performed by using a sensor that measures a positional displacement and a speed.

  As described above, according to the twenty-first embodiment, even if the input interface of the electronic device 10 is only a button, the data rewriting device 20 and the electronic device are used by using the various sensors as described above. 10 can communicate with each other.

Embodiment 22. FIG.
Embodiments 1 to 21 described above can be combined as appropriate. In the twenty-second embodiment of the present invention, an example in which the configuration using the server on the network described in the third embodiment and the method for determining the communication speed using the start bit string described in the sixth embodiment will be described. .

  FIG. 4 is an operation flow of the data rewriting system according to the twenty-second embodiment. Hereinafter, each step of FIG. 4 will be described.

(S401)
The data rewriting device 20 requests connection to the electronic device 10 using infrared communication.
(S402)
The electronic device 10 transmits response data to the connection request using visible light communication. At this time, the start bit string described in the sixth embodiment is also transmitted. The data rewriting device 20 receives the response data by visible light communication.

(S403)
The data rewriting device 20 determines the communication speed using the start bit string.
(S404)
When the data rewriting device 20 can determine the communication speed using the start bit string, the data rewriting device 20 determines that the electronic device 10 is a compatible device capable of communicating with the data rewriting device 20.
If the electronic device 10 is a compatible device, the process proceeds to step S405. If the electronic device 10 is not a compatible device, the communication is terminated.

(S405)
The electronic device 10 transmits individual identification information such as its own model name and error information by visible light communication.
(S406)
The data rewriting device 20 determines whether the data transmitted by the electronic device 10 has been received. If it can be received, the process proceeds to step S407. If it cannot be received, the process returns to step S401 to repeat the same processing. When this step is repeated a predetermined number of times, it is determined that a communication timeout has occurred, and communication is terminated.

(S407)
The data rewriting device 20 transmits the individual identification information and error information of the electronic device 10 to the server via the network. The server performs error diagnosis by analyzing the error information. In addition, the latest version of data stored in the ROM 14 of the electronic device 10 is specified using the individual identification information.

(S408)
The server transmits the failure diagnosis result and the latest rewritten data to the data rewriting device 20.
(S409)
The data rewrite device 20 transmits the latest version of the rewrite data to the electronic device 10.

  As described above, in the twenty-second embodiment, the operation example in which the third and sixth embodiments are combined has been described.

1 is a functional block diagram of a data rewriting system according to a first embodiment. It is a block diagram at the time of comprising the data rewriting apparatus 20 using a computer. It is an example of a signal in the case of performing communication using a subcarrier. 24 is an operation flow of the data rewriting system according to the twenty-second embodiment.

Explanation of symbols

  10 electronic equipment, 12 MPU, 13 RAM, 14 ROM, 15 peripheral parts, 16 equipment side light receiving part, 17 equipment side light emitting part, 20 data rewriting device, 22 MPU, 23 RAM, 24 ROM, 25 peripheral parts, 26 rewriting side Light receiving part, 27 Rewriting side light emitting part, 28 Display input part, 29 Charging part.

Claims (16)

An electronic device having a storage device for storing data;
A data rewriting device for rewriting data in a storage device included in the electronic device;
Have
The data rewriting device includes:
A rewrite-side light emitting unit that transmits data to be rewritten to the electronic device by optical communication;
Rewrite-side light receiving unit that receives data transmitted by the electronic device by visible light communication;
A display unit for displaying data received by the rewrite-side light receiving unit;
With
The electronic device is
A device-side light-receiving unit that receives data transmitted by the rewrite-side light-emitting unit and stores the data in the storage device;
A device-side light emitting unit that transmits data to the data rewriting device by visible light communication;
A data rewriting system comprising: The data rewriting system according to claim 1, wherein the rewriting side light emitting unit transmits data to be rewritten by infrared communication or visible light communication. Have a server connected to the network,
The data rewriting device includes:
An interface for connecting to the network;
Via the interface
Sending data received from the electronic device to the server;
The server
Using the data received from the data rewriting device to perform a failure diagnosis of the electronic device,
The result is transmitted to the data rewriting device via the network,
The data rewriting system according to claim 1 or 2, wherein the data rewriting device displays the result on the screen on the display unit. The electronic device transmits identification information of the electronic device to the data rewriting device,
The data rewriting device transmits the identification information to the server,
The server acquires an updated version of data stored in the storage device based on the identification information and transmits the updated version to the data rewriting device via the network,
The data rewriting system according to claim 3, wherein the data rewriting device transmits the updated data to the electronic device. The device side light receiving unit and the device side light emitting unit are:
It is mounted on a circuit board placed inside the electronic device body,
The electronic device is
A second device-side light receiving portion and a second device-side light emitting portion disposed on the surface of the main body,
The optical transmission cable which connects the said apparatus side light-receiving part and the said apparatus side light emission part, and the said 2nd apparatus side light reception part and the 2nd apparatus side light emission part, respectively is further provided. Item 5. The data rewriting system according to any one of Items 4 to 5. The electronic device is
When starting communication with the data rewriting device, a predetermined start signal is transmitted,
The data rewriting device includes:
The data rewriting system according to any one of claims 1 to 5, wherein a communication speed and a communication method with the electronic device are determined using the start signal. The electronic device or the data rewriting device is
When starting communication using visible light communication,
The data rewriting system according to any one of claims 1 to 6, wherein no subsequent communication is performed until it is confirmed that the receiving sensitivity of the rewriting side light receiving unit or the device side light receiving unit is stable. . The electronic device or the data rewriting device is
When performing communication using visible light communication,
The data rewriting system according to any one of claims 1 to 7, wherein a predetermined transmission interruption time zone is provided during transmission of the communication signal so that the light receiving element is not saturated. The rewrite side light emitting unit or the device side light emitting unit is:
The data rewriting system according to any one of claims 1 to 8, wherein a signal modulated using an ON duty ratio or signal strength is transmitted. The rewrite side light emitting unit or the device side light emitting unit is:
An electrical signal used internally by the receiving device is superimposed on the transmission signal and transmitted.
The receiving device
The data rewriting system according to any one of claims 1 to 9, wherein the electric signal is extracted from the transmission signal and an operation corresponding to the electric signal is executed. The main body casing of the electronic device is
The data rewriting system according to any one of claims 1 to 10, further comprising a fixing unit for fixing the data rewriting device, or a mark indicating a position for fixing the data rewriting device. . The electronic device includes an arithmetic device capable of rewriting a circuit configuration,
The data rewriting device includes:
Transmitting data specifying the circuit configuration of the arithmetic unit to the electronic device;
The electronic device is
The data rewriting system according to any one of claims 1 to 11, wherein the circuit configuration of the arithmetic device is rewritten using the data. An electronic device having a storage device for storing data;
A data rewriting device for rewriting data in a storage device included in the electronic device;
Have
The data rewriting device includes:
A rewriting-side transmitting unit that transmits data to be rewritten to the electronic device by voice communication, two-dimensional electromagnetic wave communication, or vibration communication;
Rewrite-side light receiving unit that receives data transmitted by the electronic device by visible light communication;
A display unit for displaying data received by the rewrite-side light receiving unit;
With
The electronic device is
A device-side receiver that receives data transmitted by the rewrite-side transmitter and stores the data in the storage device;
A device-side light emitting unit that transmits data to the data rewriting device by visible light communication;
A data rewriting system comprising: The data rewriting system according to any one of claims 1 to 13, wherein a light emitting device normally provided in the electronic device is used for the device side light emitting unit. The data rewriting system according to claim 14, wherein when the light emitting device transmits data, the luminance is increased more than usual. The data rewriting system according to any one of claims 1 to 15, wherein the electronic device is an air conditioner or a refrigerator.

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